Financed projects
On these pages, innovative projects funded by the Innovation Fund were presented.
Learn moreConsortium leader: Agrounik, Beograd
Main partner: Institute for plant protection, Belgrade
Partner: Biounik, Belgrade
Project: Bacteriocin based product against Erwinia amylovora, the Fire Blight Pathogen
Sector: Food and agriculture
Project budget: 428,510 EUR
IF participation: 299,957 EUR
Agrounik LLC leads the consortium which also comprises the Institute for Plant Protection and Environment and Biounik Ltd. with the goal of developing and commercializing a natural bacteriocin product for application in plant protection. Fire blight, a disease caused by Erwinia amylovora, is one of most destructive diseases which cause great losses in the agricultural production of pome fruits. Chemicals which are usually used to control this disease have a copper-based protective effect, which makes frequent sprays necessary and may cause phytotoxicity, rusting, discoloration and cracks, as well as decline in plant vigor and inhibition of other microflora. Also, antibiotics are not effective enough due to instability, phytotoxic side effects, high costs, and the development of resistant bacterial populations.
The consortium strives to develop an effective biological control agent based on natural antibiotics of bacterial origin, which will protect the plant and reduce the severity of the disease. Practical application of this product is very simple; it is non-chemical, completely natural and, as such, superior to existing products used for plant protection.
Consortium leader: Bankom, Belgrade
Main partner: Faculty of technology and metallurgy, University of Belgrade
Project: High protein soybean-based probiotic feed with increased digestibility
Sector: Food and agriculture
Project budget: 492,106 EUR
IF participation: 294,968 EUR
Easily digestible soy protein-based feed for baby animals and pets
Bankom Ltd. and Faculty of Technology and Metallurgy are developing a new highly nutritive soybean-based product, imbued with a special biotechnological process and designed in such a way to remove all anti-nutritional factors, while simultaneously increasing the protein content and digestibility and adding valuable probiotic properties. This product is designed for highly sensitive baby animals such as piglets, young chickens at the begging of the fattening process, and farm fish such as see bass and see bream. This innovation will be achieved through a novel and unique process that will also provide significant reductions in the cost of production.
Consortium leader: Eugen Chocolate, Gložan
Main partner: Faculty of Technology, University of Novi Sad
Project: Development of Innovative Chocolate Products Fortified with Bioactive Compounds
Sector: Food and agriculture
Project budget: 100,810 EUR
IF participation: 70,567 EUR
Eugen Chocolate is a company from Gložan, a little village near Novi Sad, which focuses on the production of premium quality and special types of chocolate. Partnering with the Faculty of Technology from University of Novi Sad, Eugen Chocolate strives to prove that proper nutrition is an inseparable segment of the healthy lifestyle concept by demonstrating how chocolate products offer a valuable vehicle for nutritional supplementation improvement. The general objective of the project is to develop innovative ways to obtain new chocolate products enriched with biologically active components with health benefits, which would be functionally and energy superior compared to similar traditional products.
Consortium leader: Gecko Solutions, Belgrade
Main partner: Faculty of mechanical engineering, University of Belgrade
Project: S3T
Sector: ICT
Project budget: 220,750 EUR
IF participation: 149,733 EUR
A smartphone application for monitoring the performance of table tennis players
Gecko Solutions and the Faculty of mechanical engineering from University of Belgrade are developing a table tennis tracking system that will allow professionals and non-professionals to record and analyze their performance in real-time and improve it in an efficient way. Trainers and performance analysts can then use match data to improve their knowledge. Table tennis clubs and associations will have full software system support for their comprehensive trainings and the goal is to have national federations introduce the system to official table tennis matches, games, various tournaments and ultimately the Olympic games. Finally, the software application will be made available to the massive population of young people where they can participate in an online portal with daily, weekly and monthly challenges and help popularize this sport in the world.
Consortium leader: GeoGis, Belgrade
Main partner: Institute of physics, Belgrade
Partner: Dirigent Acoustic, Belgrade
Partner: Institute Mihajlo Pupin, Belgrade
Project: Drone Surveying of Acoustic Noise Sources and Implementing in GIS
Sector: Environment and climate protection
Project budget: 334,955 EUR
IF participation: 234,000 EUR
A drone-powered device for aerial surveying and mapping used in noise pollution measurement
GeoGis, together with two top research institutes – Institute of Physics and Institute Mihajlo Pupin – and the company Dirigent Acoustics, will develop an airborne graphene acoustic camera for surveying of noise sources and implementing them in geographic information systems (GIS). This technology takes noise surveying to a new level, offering the most advanced automated solution for noise mapping that will dramatically cut down human resource costs and measurement time, while increasing measurement quality. The new service of noise source mapping will have significant impact on the environmental, noise abatement, and smart city industries and markets, raising the quality of life in urban areas near roads, railroads, airports, factories, and other significant noise sources.
www.geogis.rs
www.phy.bg.ac.rs
dirigent-acoustics.co.rs
www.pupin.rs
Consortium leader: GreenLab, Žiča
Main partner: Institute for molecular genetics and genetic engineering, Belgrade
Partner: Invetlab, Adaševci
Partner: Phytonet, Belgrade
Project: Development of Technological Processes for Production of Innovative Probiotic Products for Prevention and Treatment of Intestinal Infections in Animals
Sector: Food and agriculture
Project budget: 299,550 EUR
IF participation: 209,684 EUR
Probiotic-enriched animal feed designed for preventing intestinal infections
In order to improve animal health and reduce the use of antibiotics in livestock production, Institute of Molecular Genetics and Genetic Engineering (IMGGE), University of Belgrade is developing an innovative fermented probiotic for animals. According to already preformed in vivo tests, the probiotic represents a powerful alternative to the use of antibiotics in treatment of intestinal infections associated with Clostridium perfrigens, E. coli, and Salmonella Typhimurium. The technological processes for industrial scale will be optimized and standardized by companies Invetlab and Phytonet, while the consortium leader Greenlab and Phytonet will setup the conditions for distribution of the product on broader national and international markets.
Consortium leader: LMB Soft, Niš
Main partner: Electronic faculty, University of Niš
Partner: Innovation Center of Advanced Technologies, Niš
Project: Development of New Generation of Sterile PVC Tubes Docking Devices for Medical Blood Bag System
Sector: Medical and therapeutical devices
Project budget: 401,660 EUR
IF participation: 281,162 EUR
A device for reducing the risk of infection during blood transfusion in hospitals
The consortium led by LMB Soft and consisting of the Faculty of Electronic Engineering in Niš and the Innovation Centre of Advanced Technologies will develop a new sterile docking device (SDD) for connecting medical PVC tubes used in blood bag transfusion systems. SDD will be developed through an innovative solution using RF welding technology, which can maintain absolute sterility despite heavy exterior bacterial contamination. The device is foreseen to be used in transfusion technology in two ways: as a standalone device similar to but better in performance than competitor devices, and as one of the vital parts of a more complex processing device in blood transfusion – a device capable of automatically connecting new satellite bags to the existing blood bag system.
Consortium leader: Mont Stubline, Stubline
Main partner: Faculty of mechanical engineering, University of Belgrade
Partner: DenHeat, Denmark
Project: Development of Innovative Modular Helicoid Heat Exchanger for Organic Waste
Sector: Energy and energy efficiency
Project budget: 305,770 EUR
IF participation: 212,266 EUR
Economical heat exchangers with application in pasteurization of organic waste (biomass)
Serbian design and manufacturing company Mont Stubline and Danish company DenHeat ApS have been very active in the organic waste recycling industry since 2010, supplying and installing components to leading European biomass plant builders. Experience and industry-specific know-how gathered during the process were used to begin development of a specialized heat exchanger dedicated to biomass. This design was developed to meet the industry requirement for a high performance heat exchanger aimed to process „thick“ fluids which will improve energy efficiency, reduce fouling and clogging issues and make regular maintenance possible and cost-effective. The academic partner on this project is the Faculty of mechanical engineering from the University of Belgrade.
Consortium leader: NIRI 4NL Research And Development, Niš
Main partner: Faculty of science and mathematics, University of Niš
Partner: KP Advertajzing, Niš
Project: Classifieds Guard
Sector: Software and application development
Project budget: 119,700 EUR
IF participation: 83,750 EUR
Advertising solution based on smart technologies and machine learning with application in mobile commerce
The consortium consisting of NIRI, a Niš based research and development IT company, the Faculty of Natural Sciences and Mathematics from Niš, and the largest Serbian Classified Ads business KupujemProdajem.com, brings innovation to Content Moderation for Classified Ads businesses.
Effective Content Moderation of user-generated advertisements guards the end-users from improper content and fraud, but this is still largely a manual process with only basic automation support.
This project will utilize modern software development, state-of-the art machine learning techniques and first-class understanding of the market and content moderation business to deliver a software service capable of autonomously moderating an ever-growing number of classified ads, constantly and actively learning from feedback, and ultimately facilitating a much faster, cheaper and more accurate content moderation process.
Consortium leader: NovelIC, Belgrade
Main partner: School of electrical engineering, University of Belgrade
Project: HUman DEtection Sensor, HUDES
Sector: Electrical engineering
Project budget: 291,302 EUR
IF participation: 203,911 EUR
A sensor module for contactless detection of human presence in various environments
The company NovelIC from Belgrade is partnering with the Schооl оf Еlеctricаl Еnginееring from the University of Belgrade to develop an innovative product in the field of microelectronics, sensors and smart signal processing. The project revolves around a novel, unique, low cost and miniature contactless human detection sensor module, based on radar sensing and advanced detection of human vital signs and presence. This innovation will find its primary application in the transportation and auto industry, but can also be applied to various other industries and service sectors, ranging from entertainment venues such as cinemas and theaters to smart furniture in modern business environments.
Consortium leader: Otto Bock Sava, Kragujevac
Main partner: Faculty of engineering, University of Kragujevac
Partner: Sim-Cert, Kruševac
Project: Ultimate Cca – Oap Manufacturing System
Sector: Machines and mechanical engineering
Project budget: 414,408 EUR
IF participation: 289,671 EUR
An integrated system for production of orthopedic prostheses
The consortium led by Otto Bock Sava from Kragujevac, supported by the Faculty of Engineering Science Kragujevac and the company Sim Cert, is involved in development of a design and production system for creating orthopedic aids. The system (i.e. the process) revolves around employing optical scanners for taking negative casts, software for processing the scans (CAD software) and a CNC machine operated by CAM/CNC software to manufacture the model. This advanced production system brings a reduction in the number of scanners required, as well as improvements to the CNC machine performance and enhancing of compatibility of the software with the goal of improving the quality of the final product and the overall efficiency of the production system.
Consortium leader: Quadra Graphic, Belgrade
Main partner: Institute of physics, Belgrade
Project: Upscaling Teslagram® Technology Based on Variable and Complex Biological Structures for Security Printing
Sector: Life sciences
Project budget: 429.918 EUR
IF participation: 300.000 EUR
Digital security identification cards based on the structure of butterfly wing scales
Quadra Graphic and the Institute of Physics Belgrade have joined forces to develop and print innovative digital identification cards. The core of the technology, patented and protected as Teslagram®, is in complex and variable biological structures which are proven to be unique, and impossible to counterfeit by any existing means. Quadra Graphic and the IPB will use this technology to develop secure optical verification and identification methods. Teslagram® can also be applied to individualized protection of numerous other goods and valuables including banknotes, credit cards and artwork.
Consortium leader: Tetragon, Čačak
Main partner: Faculty of technology and metallurgy, University of Belgrade
Project: Development of Eco-friendly Water-born Polychloroprene Contact Adhesives
Sector: Life sciences
Project budget: 108,278 EUR
IF participation: 70,346 EUR
Single-component water-based adhesive (glue)
The company Tetragon from Čačak is working with the Faculty of Technology and Metallurgy, University of Belgrade on creating a novel formulation of water-borne polychloroprene contact adhesives. The application of this innovative product can cover a wide range of industries, but would primarily be used in furniture, automotive and leather industry sectors. A key step in this proposal would be the development of semi-stable adhesive emulsions which would be used in combination with various aditives to enhance adhesiveness. The proposed products would be developed in line with the latest EU standards and the production process would allow for significant cost efficiency.
Consortium leader: Wipl-D, Belgrade
Main partner: School of electrical engineering, University of Belgrade
Project: New Generation of Electromagnetic Modeling Simulation Tools
Sector: Electrical engineering
Project budget: 428,550 EUR
IF participation: 299,985 EUR
Electromagnetic simulation software for global telecommunications industry
WIPL-D d.o.o. is one of the leaders in the area of electromagnetic simulation software, which is frequently used in areas such as antenna and microwave system design, radar scattering problems, electromagnetic compatibility and analysis of radiation hazards.
Joined by the School of electrical engineering from Belgrade, WIPL-D is going to develop a new generation of electromagnetic modeling simulation tools, which includes implementation of unique Legendre polynomial based max-ortho bases and singular bases defined over curved mesh elements in WIPL-D 3D solver.
The new features should enable 10 to 100 times faster and more accurate simulations, and allow for analyses of structures which are not possible by today’s standards.
Consortium leader: Agrounik, Beograd
Main partner: Institute for plant protection, Belgrade
Partner: Biounik, Belgrade
Project: Bacteriocin based product against Erwinia amylovora, the Fire Blight Pathogen
Sector: Food and agriculture
Project budget: 428,510 EUR
IF participation: 299,957 EUR
Agrounik LLC leads the consortium which also comprises the Institute for Plant Protection and Environment and Biounik Ltd. with the goal of developing and commercializing a natural bacteriocin product for application in plant protection. Fire blight, a disease caused by Erwinia amylovora, is one of most destructive diseases which cause great losses in the agricultural production of pome fruits. Chemicals which are usually used to control this disease have a copper-based protective effect, which makes frequent sprays necessary and may cause phytotoxicity, rusting, discoloration and cracks, as well as decline in plant vigor and inhibition of other microflora. Also, antibiotics are not effective enough due to instability, phytotoxic side effects, high costs, and the development of resistant bacterial populations.
The consortium strives to develop an effective biological control agent based on natural antibiotics of bacterial origin, which will protect the plant and reduce the severity of the disease. Practical application of this product is very simple; it is non-chemical, completely natural and, as such, superior to existing products used for plant protection.
Consortium leader: Bankom, Belgrade
Main partner: Faculty of technology and metallurgy, University of Belgrade
Project: High protein soybean-based probiotic feed with increased digestibility
Sector: Food and agriculture
Project budget: 492,106 EUR
IF participation: 294,968 EUR
Easily digestible soy protein-based feed for baby animals and pets
Bankom Ltd. and Faculty of Technology and Metallurgy are developing a new highly nutritive soybean-based product, imbued with a special biotechnological process and designed in such a way to remove all anti-nutritional factors, while simultaneously increasing the protein content and digestibility and adding valuable probiotic properties. This product is designed for highly sensitive baby animals such as piglets, young chickens at the begging of the fattening process, and farm fish such as see bass and see bream. This innovation will be achieved through a novel and unique process that will also provide significant reductions in the cost of production.
Consortium leader: Eugen Chocolate, Gložan
Main partner: Faculty of Technology, University of Novi Sad
Project: Development of Innovative Chocolate Products Fortified with Bioactive Compounds
Sector: Food and agriculture
Project budget: 100,810 EUR
IF participation: 70,567 EUR
Eugen Chocolate is a company from Gložan, a little village near Novi Sad, which focuses on the production of premium quality and special types of chocolate. Partnering with the Faculty of Technology from University of Novi Sad, Eugen Chocolate strives to prove that proper nutrition is an inseparable segment of the healthy lifestyle concept by demonstrating how chocolate products offer a valuable vehicle for nutritional supplementation improvement. The general objective of the project is to develop innovative ways to obtain new chocolate products enriched with biologically active components with health benefits, which would be functionally and energy superior compared to similar traditional products.
Consortium leader: Gecko Solutions, Belgrade
Main partner: Faculty of mechanical engineering, University of Belgrade
Project: S3T
Sector: ICT
Project budget: 220,750 EUR
IF participation: 149,733 EUR
A smartphone application for monitoring the performance of table tennis players
Gecko Solutions and the Faculty of mechanical engineering from University of Belgrade are developing a table tennis tracking system that will allow professionals and non-professionals to record and analyze their performance in real-time and improve it in an efficient way. Trainers and performance analysts can then use match data to improve their knowledge. Table tennis clubs and associations will have full software system support for their comprehensive trainings and the goal is to have national federations introduce the system to official table tennis matches, games, various tournaments and ultimately the Olympic games. Finally, the software application will be made available to the massive population of young people where they can participate in an online portal with daily, weekly and monthly challenges and help popularize this sport in the world.
Consortium leader: GeoGis, Belgrade
Main partner: Institute of physics, Belgrade
Partner: Dirigent Acoustic, Belgrade
Partner: Institute Mihajlo Pupin, Belgrade
Project: Drone Surveying of Acoustic Noise Sources and Implementing in GIS
Sector: Environment and climate protection
Project budget: 334,955 EUR
IF participation: 234,000 EUR
A drone-powered device for aerial surveying and mapping used in noise pollution measurement
GeoGis, together with two top research institutes – Institute of Physics and Institute Mihajlo Pupin – and the company Dirigent Acoustics, will develop an airborne graphene acoustic camera for surveying of noise sources and implementing them in geographic information systems (GIS). This technology takes noise surveying to a new level, offering the most advanced automated solution for noise mapping that will dramatically cut down human resource costs and measurement time, while increasing measurement quality. The new service of noise source mapping will have significant impact on the environmental, noise abatement, and smart city industries and markets, raising the quality of life in urban areas near roads, railroads, airports, factories, and other significant noise sources.
www.geogis.rs
www.phy.bg.ac.rs
dirigent-acoustics.co.rs
www.pupin.rs
Consortium leader: GreenLab, Žiča
Main partner: Institute for molecular genetics and genetic engineering, Belgrade
Partner: Invetlab, Adaševci
Partner: Phytonet, Belgrade
Project: Development of Technological Processes for Production of Innovative Probiotic Products for Prevention and Treatment of Intestinal Infections in Animals
Sector: Food and agriculture
Project budget: 299,550 EUR
IF participation: 209,684 EUR
Probiotic-enriched animal feed designed for preventing intestinal infections
In order to improve animal health and reduce the use of antibiotics in livestock production, Institute of Molecular Genetics and Genetic Engineering (IMGGE), University of Belgrade is developing an innovative fermented probiotic for animals. According to already preformed in vivo tests, the probiotic represents a powerful alternative to the use of antibiotics in treatment of intestinal infections associated with Clostridium perfrigens, E. coli, and Salmonella Typhimurium. The technological processes for industrial scale will be optimized and standardized by companies Invetlab and Phytonet, while the consortium leader Greenlab and Phytonet will setup the conditions for distribution of the product on broader national and international markets.
Consortium leader: LMB Soft, Niš
Main partner: Electronic faculty, University of Niš
Partner: Innovation Center of Advanced Technologies, Niš
Project: Development of New Generation of Sterile PVC Tubes Docking Devices for Medical Blood Bag System
Sector: Medical and therapeutical devices
Project budget: 401,660 EUR
IF participation: 281,162 EUR
A device for reducing the risk of infection during blood transfusion in hospitals
The consortium led by LMB Soft and consisting of the Faculty of Electronic Engineering in Niš and the Innovation Centre of Advanced Technologies will develop a new sterile docking device (SDD) for connecting medical PVC tubes used in blood bag transfusion systems. SDD will be developed through an innovative solution using RF welding technology, which can maintain absolute sterility despite heavy exterior bacterial contamination. The device is foreseen to be used in transfusion technology in two ways: as a standalone device similar to but better in performance than competitor devices, and as one of the vital parts of a more complex processing device in blood transfusion – a device capable of automatically connecting new satellite bags to the existing blood bag system.
Consortium leader: Mont Stubline, Stubline
Main partner: Faculty of mechanical engineering, University of Belgrade
Partner: DenHeat, Denmark
Project: Development of Innovative Modular Helicoid Heat Exchanger for Organic Waste
Sector: Energy and energy efficiency
Project budget: 305,770 EUR
IF participation: 212,266 EUR
Economical heat exchangers with application in pasteurization of organic waste (biomass)
Serbian design and manufacturing company Mont Stubline and Danish company DenHeat ApS have been very active in the organic waste recycling industry since 2010, supplying and installing components to leading European biomass plant builders. Experience and industry-specific know-how gathered during the process were used to begin development of a specialized heat exchanger dedicated to biomass. This design was developed to meet the industry requirement for a high performance heat exchanger aimed to process „thick“ fluids which will improve energy efficiency, reduce fouling and clogging issues and make regular maintenance possible and cost-effective. The academic partner on this project is the Faculty of mechanical engineering from the University of Belgrade.
Consortium leader: NIRI 4NL Research And Development, Niš
Main partner: Faculty of science and mathematics, University of Niš
Partner: KP Advertajzing, Niš
Project: Classifieds Guard
Sector: Software and application development
Project budget: 119,700 EUR
IF participation: 83,750 EUR
Advertising solution based on smart technologies and machine learning with application in mobile commerce
The consortium consisting of NIRI, a Niš based research and development IT company, the Faculty of Natural Sciences and Mathematics from Niš, and the largest Serbian Classified Ads business KupujemProdajem.com, brings innovation to Content Moderation for Classified Ads businesses.
Effective Content Moderation of user-generated advertisements guards the end-users from improper content and fraud, but this is still largely a manual process with only basic automation support.
This project will utilize modern software development, state-of-the art machine learning techniques and first-class understanding of the market and content moderation business to deliver a software service capable of autonomously moderating an ever-growing number of classified ads, constantly and actively learning from feedback, and ultimately facilitating a much faster, cheaper and more accurate content moderation process.
Consortium leader: NovelIC, Belgrade
Main partner: School of electrical engineering, University of Belgrade
Project: HUman DEtection Sensor, HUDES
Sector: Electrical engineering
Project budget: 291,302 EUR
IF participation: 203,911 EUR
A sensor module for contactless detection of human presence in various environments
The company NovelIC from Belgrade is partnering with the Schооl оf Еlеctricаl Еnginееring from the University of Belgrade to develop an innovative product in the field of microelectronics, sensors and smart signal processing. The project revolves around a novel, unique, low cost and miniature contactless human detection sensor module, based on radar sensing and advanced detection of human vital signs and presence. This innovation will find its primary application in the transportation and auto industry, but can also be applied to various other industries and service sectors, ranging from entertainment venues such as cinemas and theaters to smart furniture in modern business environments.
Consortium leader: Otto Bock Sava, Kragujevac
Main partner: Faculty of engineering, University of Kragujevac
Partner: Sim-Cert, Kruševac
Project: Ultimate Cca – Oap Manufacturing System
Sector: Machines and mechanical engineering
Project budget: 414,408 EUR
IF participation: 289,671 EUR
An integrated system for production of orthopedic prostheses
The consortium led by Otto Bock Sava from Kragujevac, supported by the Faculty of Engineering Science Kragujevac and the company Sim Cert, is involved in development of a design and production system for creating orthopedic aids. The system (i.e. the process) revolves around employing optical scanners for taking negative casts, software for processing the scans (CAD software) and a CNC machine operated by CAM/CNC software to manufacture the model. This advanced production system brings a reduction in the number of scanners required, as well as improvements to the CNC machine performance and enhancing of compatibility of the software with the goal of improving the quality of the final product and the overall efficiency of the production system.
Consortium leader: Quadra Graphic, Belgrade
Main partner: Institute of physics, Belgrade
Project: Upscaling Teslagram® Technology Based on Variable and Complex Biological Structures for Security Printing
Sector: Life sciences
Project budget: 429.918 EUR
IF participation: 300.000 EUR
Digital security identification cards based on the structure of butterfly wing scales
Quadra Graphic and the Institute of Physics Belgrade have joined forces to develop and print innovative digital identification cards. The core of the technology, patented and protected as Teslagram®, is in complex and variable biological structures which are proven to be unique, and impossible to counterfeit by any existing means. Quadra Graphic and the IPB will use this technology to develop secure optical verification and identification methods. Teslagram® can also be applied to individualized protection of numerous other goods and valuables including banknotes, credit cards and artwork.
Consortium leader: Tetragon, Čačak
Main partner: Faculty of technology and metallurgy, University of Belgrade
Project: Development of Eco-friendly Water-born Polychloroprene Contact Adhesives
Sector: Life sciences
Project budget: 108,278 EUR
IF participation: 70,346 EUR
Single-component water-based adhesive (glue)
The company Tetragon from Čačak is working with the Faculty of Technology and Metallurgy, University of Belgrade on creating a novel formulation of water-borne polychloroprene contact adhesives. The application of this innovative product can cover a wide range of industries, but would primarily be used in furniture, automotive and leather industry sectors. A key step in this proposal would be the development of semi-stable adhesive emulsions which would be used in combination with various aditives to enhance adhesiveness. The proposed products would be developed in line with the latest EU standards and the production process would allow for significant cost efficiency.
Consortium leader: Wipl-D, Belgrade
Main partner: School of electrical engineering, University of Belgrade
Project: New Generation of Electromagnetic Modeling Simulation Tools
Sector: Electrical engineering
Project budget: 428,550 EUR
IF participation: 299,985 EUR
Electromagnetic simulation software for global telecommunications industry
WIPL-D d.o.o. is one of the leaders in the area of electromagnetic simulation software, which is frequently used in areas such as antenna and microwave system design, radar scattering problems, electromagnetic compatibility and analysis of radiation hazards.
Joined by the School of electrical engineering from Belgrade, WIPL-D is going to develop a new generation of electromagnetic modeling simulation tools, which includes implementation of unique Legendre polynomial based max-ortho bases and singular bases defined over curved mesh elements in WIPL-D 3D solver.
The new features should enable 10 to 100 times faster and more accurate simulations, and allow for analyses of structures which are not possible by today’s standards.